KR20120108401A - Discharger for sedimentation sludge - Google Patents

Abstract

The present invention relates to a settling sludge discharge device for discharging the sludge settled in the sedimentation basin of the water treatment plant, and more particularly to a sediment sludge discharge device that can prevent the rabbit hole phenomenon, and can efficiently discharge the concentrated sludge.

Description

Discharger for sedimentation sludge}

The present invention relates to a settling sludge discharge device for discharging the sludge settled in the sedimentation basin of the water treatment plant, and more particularly to a sediment sludge discharge device that can prevent the rabbit hole phenomenon, and can efficiently discharge the concentrated sludge.

Generally, the water we use is supplied through water treatment facilities.

1 shows a general standard water treatment process diagram. Referring to FIG. 1, a standard water treatment process is divided into a water well, a mixed paper, a flocculated paper, a sedimentation paper, a filter paper and a water purification paper.

The impingement well is a facility that receives raw water pumped by a water intake pump and adjusts the flow rate to stabilize the water level in a subsequent process, the mixed paper is a facility for dispersing water treatment chemicals in water, and the flocculated paper aggregates the unstable colloidal particles together to settle. It is a facility to grow into possible particles, the sediment is a facility for sedimentation of sludge to separate from the raw water, the filter paper is a facility for removing the fine particles that have not settled in the sedimentation basin, the purified water is disinfection facility and wastewater treatment The disinfection facility is a facility that produces hygienically safe drinking water by killing water-borne microorganisms after removing colloidal particles from raw water, and the wastewater treatment facility is a sludge discharge water and filter paper backwash water discharged from the sedimentation basin. Solids are separated from the back and the solids And sent to final disposal, it can symbolize is recovering facilities.

An important function of the sedimentation basin in such a water treatment facility is to precipitate solids in the raw water to produce clean symbolic water and to discharge the sludge effectively.

2 shows a sectional view of a typical settling basin 10. Referring to FIG. 2, the sedimentation basin 10 of the water treatment plant is installed as a concrete structure having a predetermined length and width, and the aggregated and settled sludge is an underwater bogie sludge collector installed to reciprocate in the sedimentation basin 10 ( 1) collected by the hopper (2) formed on the bottom side of the sedimentation basin. As such, the sludge collected in the hopper 2 is periodically or intermittently discharged to the outside of the sedimentation basin 10 through the drain pipe 3 provided at the lower side of the hopper 2, and then dewatered to be landfilled and dumped to the ocean or covered with cover material. And part of the cement raw material is being recycled.

However, the sludge concentrated in the flocculant and the sedimentation basin may not be discharged through the drain pipe 3 of the hopper 2, but a rabbit hole phenomenon may occur in which water is discharged.

3 is a cross-sectional view showing the rabbit hole phenomenon of the general settling basin 10. Referring to FIG. 3, generally, the concentrated sludge collected in the hopper 2 by the sludge collector 1 is not discharged, but is condensed on the inner circumferential surface of the hopper 2 to form a small narrow channel. The sludge has a high water content but is discharged to the outside of the settling basin through the drain pipe 3. The phenomenon described above is called a rabbit hole phenomenon because the shape in which sludge is accumulated is similar to that of a rabbit den.

The above-mentioned rabbit hole phenomenon causes dehydration cake with water content of more than 80% by introducing sludge with high moisture content into the dehydration facility, which makes it difficult to dispose of it, and the disposal cost due to the increase in water content is high. It is a burden. In addition, the rabbit hole phenomenon is a waste of the sedimentation water of the sedimentation basin 10, the sludge discharge efficiency is reduced, as well as the hassle to clean up the condensed sludge periodically in the hopper 2 through the attraction.

The settling sludge hopper of the present invention is devised to solve the above problems, to provide a settling sludge hopper that prevents the rabbit hole phenomenon, and can efficiently discharge the concentrated sludge.

In the sedimentation sludge discharge apparatus of the present invention, in the sedimentation sludge discharge apparatus for discharging the sludge collected by the submersible sludge collector in the sedimentation basin to segregate and separate the aggregated particles from the raw water in the water treatment facility, the bottom side of the sedimentation basin A hopper formed in the sludge collected by the sludge collector, the inner circumferential surface of which is formed in a streamline shape, and an area narrowing toward the lower direction; And a drain pipe disposed under the hopper to discharge the collected sludge.

In this case, the drain pipe may be connected to the bottom of the hopper perpendicular to the ground.

In addition, the settling sludge discharge device is fixed to the inside of the hopper, disposed in the upper side of the inlet of the drain pipe, sedimentation sludge characterized in that it further comprises a rabbit hole prevention device spaced apart from the inlet of the drain pipe. Ejector.

At this time, the rabbit hole prevention device, the shape seen from the plane is circular, the shape seen from the side has a rhombus shape, a plurality of guide feathers are installed inclined downward in the lower inclined surface, the guide from the upper end of the guide feather A first spray nozzle for spraying water toward the inclined surface of the feather to generate the vortex may be provided.

The settling sludge discharge device as described above, the sludge slip of the upper slope of the rabbit hole prevention device upper slope of the second injection nozzle and the rabbit hole prevention device to induce sludge slip in the hopper on the upper inner peripheral surface of the hopper. Inducing third spray nozzle may be provided.

Sedimentation sludge discharge apparatus of the present invention, by forming the inner peripheral surface of the hopper in a streamlined form, by preventing the rabbit hole phenomenon can lower the water content of the sludge to reduce the sludge disposal cost, and facilitate the maintenance of the hopper.

In addition, the drain pipe is connected to the bottom of the hopper perpendicularly to the ground, so that the sludge collected in the hopper easily flows into the drain pipe, it is possible to smoothly discharge the sludge.

In addition, the sedimentation sludge discharge apparatus of the present invention is provided with a rabbit hole prevention device to generate a vortex that can lower the concentration of the sludge concentrated in the inlet of the drain pipe, thereby preventing the rabbit hole phenomenon and increase the sludge discharge efficiency. have.

In addition, the sedimentation sludge discharge device of the present invention, a plurality of second injection nozzles for causing sludge slip on the upper inner peripheral surface of the hopper and the agent for causing sludge slip of the upper slope of the rabbit hole prevention device on the upper end of the rabbit hole prevention device By providing a three-jet nozzle, the prevention of a rabbit hole phenomenon and sludge discharge efficiency can be improved further.

1 is a general standard water treatment process.
2 is a cross-sectional view of a typical sedimentation basin.
Figure 3 is a cross-sectional view showing a rabbit hole phenomenon of a general sedimentation basin.
Figure 4 is a cross-sectional view of the sludge discharge apparatus according to the present invention.
Figure 5 is a perspective view of the sludge discharge apparatus according to the present invention.
Figure 6 is a bottom view of the rabbit hole prevention apparatus according to the present invention.

The present invention relates to a sedimentation sludge discharge device 100 of the sedimentation basin 1000, which precipitates and separates aggregated particles from raw water in a water treatment facility. More specifically, it prevents a rabbit hole phenomenon and efficiently discharges concentrated sludge. It relates to a sludge discharge apparatus 100 that can be.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the present invention.

Figure 4 is a sectional view of the sludge discharge apparatus 100 according to the present invention, Figure 5 is a perspective view of the sludge discharge apparatus 100 according to the present invention, Figure 6 is a rabbit hole prevention device 130 according to the present invention The bottom view of the is shown.

4 and 5, the sewage sludge discharge apparatus 100 of the present invention, the sewage sludge collector 200 in the sedimentation basin 1000, which segregates and separates the aggregated particles from the raw water in the water treatment facility. And a drain pipe 120 provided below the hopper 110 to discharge the sludge collected by the hopper 110 and the sludge to the outside of the sedimentation basin 1000. The hopper 110 is wide open to facilitate the collection of sludge collected by the sludge collector 200, the inner circumferential surface is formed in a streamlined shape, the area becomes narrower toward the lower side. The sludge discharge apparatus 100 as described above is collected by the sludge collector 200 and the sludge collected by the hopper 110 is concentrated and is not discharged to the outside of the settler 1000, and the hopper 110 Consolidation on the inner circumferential surface of the c) may form a small narrow channel, and a rabbit hole phenomenon may occur in which only water escapes. The above-mentioned rabbit hole phenomenon causes dehydration cake with water content of more than 80% by introducing sludge with high moisture content into the dehydration facility, which makes it difficult to dispose of it, and the disposal cost due to the increase in water content is high. It is a burden. In addition, the rabbit hole phenomenon is a waste of the sedimentation water of the sedimentation basin 1000, the sludge discharge efficiency is reduced, as well as the hassle to clean up the condensed sludge periodically in the hopper 110 through the attraction. Therefore, the inner circumferential surface of the hopper 110 is formed in a streamlined form with a low resistance that does not cause stagnation, and prevents the rabbit hole phenomenon, thereby reducing the sludge water content to reduce the sludge disposal cost, the hopper 110 Can make maintenance easy. In addition, the structure in which the area becomes narrower toward the lower side of the hopper 110 is connected to the lowermost end of the hopper 110 to easily guide the drain pipe 120 for discharging the sludge to the outside of the sedimentation basin 1000. .

4 and 5, the drain pipe 120 forms a flow path for discharging sludge and is vertically connected to the ground at the bottom of the hopper 110. The structure for connecting the drain pipe 120 as described above perpendicularly to the ground at the bottom of the hopper 110 is easy to introduce all the sludge in the hopper 110 without leaving the drain pipe 120. Therefore, it is possible to smoothly discharge the sludge of the sludge discharge apparatus 100.

Referring to FIG. 5, in the drain pipe 120, an inlet 121 through which sludge flows from the hopper 110 may have a fallopian tube shape. The structure of the inlet 121 as described above is easy to discharge the sludge through the drain pipe 120 having a relatively small cross-sectional area compared to the area of the hopper 110.

4 and 5, since the drain pipe 120 discharges the sludge periodically or intermittently according to the amount of sludge deposited in the sedimentation basin 1000, a valve 122 capable of opening and closing adjustment is provided. .

4, 5 and 6, the settling sludge discharge apparatus 100 as described above is fixed to the inside of the hopper 110, disposed above the inlet 121 of the drain pipe 120. However, it may further comprise a rabbit hole prevention device 130 is spaced apart from the inlet 121 of the drain pipe 120. By forming the hopper 110 in a streamlined form and having the rabbit hole preventing device 130, the rabbit hole phenomenon can be effectively prevented. Rabbit hole prevention apparatus 130 as described above, the shape seen from the plane is circular, the shape seen from the side has a rhombus shape. In other words, the rabbit hole prevention device 130 has a top and bottom inclined surface to form a combination of two cones symmetrically up and down so that the bottom face each other. As described above, in the rabbit hole preventing device 130 disposed above the inlet 121 of the drain pipe 120, the sludge concentrated by the sludge collector 200 in the upper direction of the hopper 110 is drained. Directly flowing into the inlet 121 of the 120 to prevent the drain pipe 120 is blocked, the shape of the rabbit hole preventing device 130 having an inclined surface on the top, sludge is the rabbit hole preventing device 130 This is to prevent the sludge accumulated on the upper portion of the rabbit hole prevention device 130 by flowing along the upper slope of the). In addition, a plurality of guide feathers 131 are installed to be inclined downward in the inclined surface formed on the lower portion of the rabbit hole prevention device 130, from the upper end of the guide feather 131 toward the inclined surface of the guide feather 131 A first spray nozzle 132 for spraying water may be provided. Water sprayed from the first spray nozzle 132 may generate a vortex along the inclined surface of the guide feather 131. The structure as described above, by generating a vortex that can lower the concentration of the sludge concentrated in the inlet 121 of the drain pipe 120 can prevent the rabbit hole phenomenon and increase the sludge discharge efficiency.

4 and 5, the rabbit hole preventing device 130 secures a space capable of generating a vortex between the inlet 121 of the drain pipe 120 and the rabbit hole preventing device 130. In order to be spaced apart in an upward direction from the inlet 121 of the drain pipe 120 located at the center of the lowermost end of the hopper 110. The rabbit hole prevention device by connecting the inner circumferential surface of the hopper 110 and the outer circumferential surface of the rabbit hole prevention device 130 with a plurality of supports to arrange the rabbit hole prevention device 130 in the structure as described above The 130 may be fixedly spaced apart from the inlet 121 of the drain pipe 120 in the upward direction.

4 and 5, the hopper 110 may be provided with a second spray nozzle 111 that causes sludge slip on the upper circumferential surface. When the sludge is precipitated at the bottom of the sedimentation basin 1000 and concentrated sludge is continuously introduced into the hopper 110 by the sludge collector 200, the inner circumferential surface of the hopper 110 is streamlined. It is difficult to prevent sludge from stagnation, consolidation, and occurrence of a rabbit hole phenomenon only by doing so. Therefore, the second injection nozzle 111 is provided on the upper circumferential surface of the hopper 110 to spray water, thereby causing the sludge slip so that the sludge does not stagnate, thereby preventing the rabbit hole phenomenon of the precipitated sludge discharge device 100. And the sludge discharge efficiency can be further increased.

4 and 5, the rabbit hole prevention apparatus 130 may be provided with a third spray nozzle 133 in which water is sprayed along an upper inclined surface at an upper end portion thereof. Even though the upper portion of the rabbit hole prevention device 130 is formed as an inclined surface, the sludge concentrated and aggregated by the fine particles may flow down only a portion along the upper inclined surface of the rabbit hole prevention device 130, and the rest may be accumulated without flowing down. Therefore, the third injection nozzle 133 for spraying water along the inclined surface at the upper end of the rabbit hole prevention device 130 to induce sludge slip of the upper slope of the rabbit hole prevention device 130, discharge the precipitated sludge The sludge discharge efficiency of the apparatus 100 can be improved.

As described above, the sedimentation sludge discharge apparatus 100 of the present invention forms the inner circumferential surface of the hopper 110 in a streamlined form, thereby preventing the rabbit hole phenomenon, thereby lowering the sludge moisture content and reducing the sludge disposal cost, and the hopper ( 110 can be easily maintained.

In addition, by connecting the drain pipe 120 at the lowermost end of the hopper 110 perpendicular to the ground, sludge collected in the hopper 110 is easily introduced into the drain pipe 120, so that the sludge can be smoothly discharged. have.

In addition, the sedimentation sludge discharge device 100 of the present invention is provided with the rabbit hole prevention device 130 by generating a vortex that can lower the concentration of the sludge concentrated in the inlet 121 of the drain pipe 120 The prevention of the rabbit hole phenomenon and the sludge discharge efficiency can be improved.

In addition, the sedimentation sludge discharge apparatus 100 of the present invention, the plurality of the second injection nozzle 111 and the rabbit hole preventing device 130 to induce sludge slip on the upper inner peripheral surface of the hopper 110. By providing the third injection nozzle 133 to cause the sludge slip of the upper slope of the rabbit hole prevention device 130 in the upper end, it is possible to further increase the prevention of the rabbit hole phenomenon and the sludge discharge efficiency.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: sedimentation basin
100: sediment sludge discharge device
110: Hopper
111: second injection nozzle
120: drain pipe
121: inlet 122: valve
130: rabbit hole prevention device
131: guide feather
132: first injection nozzle 133: third injection nozzle
134: support
200: sludge collector

Claims (5)

In the sedimentation sludge discharge apparatus 100 for discharging the sludge collected by the submersible sludge collector 200 in the sedimentation basin 1000, which precipitates and separates the aggregated particles from the raw water in the water treatment facility,
A hopper 110 formed at one side of the bottom of the sedimentation basin 1000 and collected by the sludge collector 200 and collected in the sludge collector, an inner circumferential surface is formed in a streamlined shape, and a narrower area toward the lower side; And
A drain pipe 120 disposed below the hopper 110 to discharge the collected sludge;
Sedimentation sludge discharge apparatus comprising a.
The method of claim 1,
The drain pipe 120,
Sedimentation sludge discharge apparatus, characterized in that connected to the ground perpendicular to the bottom of the hopper 110.
The method of claim 1,
The settling sludge discharge device 100,
The rabbit hole prevention device 130 is fixed to the inside of the hopper 110, is disposed above the inlet 121 of the drain pipe 120, spaced apart from the inlet 121 of the drain pipe 120 Settling sludge discharge device characterized in that it further comprises.
The method of claim 3,
The rabbit hole prevention device 130,
The shape seen from the plane is circular, the shape seen from the side has a rhombus shape, a plurality of guide feathers 131 are installed to be inclined downward in the lower inclined surface, the guide feather 131 at the upper end of the guide feather 131 Settling sludge discharge apparatus characterized in that the first injection nozzle 132 is provided for spraying water toward the inclined surface of the) to generate the vortex.
The method of claim 4, wherein
The settling sludge discharge device 100,
On the upper inner circumferential surface of the hopper 110 of the second injection nozzle 111 causing the sludge slip in the hopper 110 and the upper end of the rabbit hole preventing device 130 of the rabbit hole prevention device 130 Sedimentation sludge discharge device characterized in that the third injection nozzle 133 is caused to cause sludge slip.

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